CN103236221A - Heat conduction inflaming retarding trademark membrane and manufacturing method thereof - Google Patents
Heat conduction inflaming retarding trademark membrane and manufacturing method thereof Download PDFInfo
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- CN103236221A CN103236221A CN2013101217872A CN201310121787A CN103236221A CN 103236221 A CN103236221 A CN 103236221A CN 2013101217872 A CN2013101217872 A CN 2013101217872A CN 201310121787 A CN201310121787 A CN 201310121787A CN 103236221 A CN103236221 A CN 103236221A
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Abstract
The invention relates to a heat conduction inflaming retarding trademark membrane and a manufacturing method thereof. The heat conduction inflaming retarding trademark membrane comprises an inflaming retarding layer, a heat conduction layer and a release layer. The inflaming retarding layer comprises an inflaming retarding resin membrane layer. The heat conduction layer comprises a heat conduction coating and a heat conduction inflaming retarding adhesive layer. The manufacturing method of the heat conduction inflaming retarding trademark membrane includes the following steps: coating the heat conduction coating on one face of the inflaming retarding layer, coating the heat conduction inflaming retarding adhesive layer on one face of the release layer in a transferring mode and compounding the heat conduction inflaming retarding adhesive layer on the heat conduction coating. Due to the fact that the heat conduction inflaming retarding trademark membrane serves as a heat conduction inflaming retarding trademark material, the membrane and the manufacturing method meet the double requirements of heating parts of electronic products for inflaming retarding and radiating and improve safety performance of the electronic products.
Description
Technical field
The present invention relates to a kind of trade mark film and method for making, relate in particular to a kind of heat conduction and fire-retardant heat conductive flame-retarding trade mark film and method for making of relating to simultaneously.
Background technology
Along with the development of technology, the trade mark film is employed more and more, and along with the arrival in electronic product epoch, electronic product is more and more, also needs increasing trade mark film to be attached on the electronic product.Owing to can generate heat usually during electronic product work, need the trade mark film to have the performance of heat conduction.Simultaneously, because the inflammable characteristic of electronic product needs to keep the trade mark film to have fire-retardant performance.In the prior art, the trade mark film does not possess heat conduction and fire-retardant performance simultaneously usually, and therefore, in actual the use, the result of use of trade mark film is also imperfect.
Summary of the invention
The technical matters that the present invention solves is: make up a kind of heat conduction and fire-retardant heat conductive flame-retarding trade mark film and method for making of relating to simultaneously, overcome the technical matters that trade mark film in the prior art does not possess heat conduction and fire-retardant performance simultaneously.
Technical scheme of the present invention is: make up a kind of heat conductive flame-retarding trade mark film, comprise flame-retardant layer, heat-conducting layer, release layer, described flame-retardant layer comprises the flame-retarded resin rete, described heat-conducting layer comprises heat conducting coating and heat conductive flame-retarding glue-line, described heat conducting coating is coated on the one side of described flame-retardant layer, and described heat conductive flame-retarding glue-line is arranged between described heat conducting coating and the described release layer.
Further technical scheme of the present invention is: described flame-retardant layer also comprises the fire-retardant rete that is arranged on the described flame-retarded resin rete one side, and described fire-retardant rete is to add fire retardant in the flame-retarded resin to form.
Further technical scheme of the present invention is: described heat conducting coating is coated on the one side of described fire-retardant rete.
Further technical scheme of the present invention is: described heat conducting coating is any one formation in conductive graphite or high heat-conducting copper silver slurry or conductive graphite and the silver-colored potpourri of starching of heat conduction copper.
Further technical scheme of the present invention is: described heat conductive flame-retarding glue-line be fire retardant with pressure-sensitive glue and conductive graphite or high heat-conducting copper silver slurry or conductive graphite and potpourri that heat conduction copper silver is starched in any one mixes formation.
Further technical scheme of the present invention is: described pressure-sensitive glue be in acrylic compounds glue, silicone based glue, the rubber-like glue any one or multiple.
Technical scheme of the present invention is: the method for making that a kind of heat conductive flame-retarding trade mark film is provided, described heat conductive flame-retarding trade mark film comprises flame-retardant layer, heat-conducting layer, release layer, described flame-retardant layer comprises the flame-retarded resin rete, described heat-conducting layer comprises heat conducting coating and heat conductive flame-retarding glue-line, and the method for making of described heat conductive flame-retarding trade mark film comprises the steps:
Described heat conducting coating is coated on the one side of described flame-retardant layer, with the one side of described heat conductive flame-retarding glue-line transfer coated at described release layer, and is compounded on the described heat conducting coating.
Further technical scheme of the present invention is: described flame-retardant layer also comprises the fire-retardant rete that is arranged on the described flame-retarded resin rete one side, described fire-retardant rete is to add fire retardant in the flame-retarded resin to form, and described heat conducting coating is coated on the one side of described fire-retardant rete.
Further technical scheme of the present invention is: described flame-retardant layer also comprises the fire-retardant rete that is arranged on the described flame-retarded resin rete one side, described fire-retardant rete is to add fire retardant in the flame-retarded resin to form, and described flame-retardant layer is followed successively by described flame-retarded resin rete and described fire-retardant rete from outside to inside.
Further technical scheme of the present invention is: described heat conducting coating is directly to be coated with the one side that mode is coated on described flame-retardant layer.
Technique effect of the present invention is: make up a kind of heat conductive flame-retarding trade mark film and method for making, described heat conductive flame-retarding trade mark film comprises flame-retardant layer, heat-conducting layer, release layer, described flame-retardant layer comprises the flame-retarded resin rete, described heat-conducting layer comprises heat conducting coating and heat conductive flame-retarding glue-line, the method for making of described heat conductive flame-retarding trade mark film comprises the steps: described heat conducting coating is coated on the one side of described flame-retardant layer, with the one side of described heat conductive flame-retarding glue-line transfer coated at described release layer, and be compounded on the described heat conducting coating.A kind of heat conductive flame-retarding trade mark film of the present invention and method for making as not only heat conduction but also fire-retardant trade mark class material, solve the electronic product heat generating components for the double requirements of fire-retardant heat radiation, promote the security performance of electronic product.
Description of drawings
Fig. 1 is structural representation of the present invention.
Fig. 2 is preferred implementation structural representation of the present invention.
Embodiment
Below in conjunction with specific embodiment, technical solution of the present invention is further specified.
As shown in Figure 1, the specific embodiment of the present invention is: make up a kind of heat conductive flame-retarding trade mark film, comprise flame-retardant layer 1, heat-conducting layer 2, release layer 3, described flame-retardant layer 1 comprises flame-retarded resin rete 11, described heat-conducting layer 2 comprises heat conducting coating 21 and heat conductive flame-retarding glue-line 22, described heat conducting coating 21 is coated on the one side of described flame-retardant layer 1, and described heat conductive flame-retarding glue-line 22 is arranged between described heat conducting coating 21 and the described release layer 3.A kind of heat conductive flame-retarding trade mark film of the present invention by flame-retardant layer 1 and heat-conducting layer 2 are set, as not only heat conduction but also fire-retardant trade mark class material, solves the electronic product heat generating components for the double requirements of fire-retardant heat radiation, promotes the security performance of electronic product.
As shown in Figure 1, specific implementation process of the present invention is: make up a kind of heat conductive flame-retarding trade mark film, comprise flame-retardant layer 1, heat-conducting layer 2, release layer 3 successively, described flame-retardant layer 1 comprises flame-retarded resin rete 11, the thickness of described flame-retarded resin rete 11 is that 5um to 50um(um is long measure, read micron, 1um is the per mille millimeter).Described heat-conducting layer 2 comprises heat conducting coating 21 and heat conductive flame-retarding glue-line 22, and described heat conducting coating 21 is directly to be coated with the one side that mode is coated on described flame-retardant layer 1, and coating thickness is 10um to 100um.Described heat conducting coating 21 is any one formation in conductive graphite or high heat-conducting copper silver slurry or conductive graphite and the silver-colored potpourri of starching of heat conduction copper.Described heat conductive flame-retarding glue-line 22 is arranged between described heat conducting coating 21 and the described release layer 3.Described heat conductive flame-retarding glue-line 22 be fire retardant with pressure-sensitive glue and conductive graphite or high heat-conducting copper silver slurry or conductive graphite and potpourri that heat conduction copper silver is starched in any one mixes formation, described pressure-sensitive glue be in acrylic compounds glue, silicone based glue, the rubber-like glue any one or multiple.
As shown in Figure 2, preferred implementation of the present invention is: described flame-retardant layer 1 also comprises the fire-retardant rete 12 that is arranged on the described flame-retarded resin rete one side, and described fire-retardant rete 12 forms for adding fire retardant in the flame-retarded resin.Described heat conducting coating 21 is coated on the one side of described fire-retardant rete 12.Described flame-retardant layer 1 is followed successively by described flame-retarded resin rete 11 and described fire-retardant rete 12 from outside to inside.By fire-retardant rete 12 is set, more increased the fire resistance of heat conductive flame-retarding trade mark film, improved the flame retardant effect of heat conductive flame-retarding trade mark film.
As shown in Figure 1, the specific embodiment of the present invention is: the method for making that a kind of heat conductive flame-retarding trade mark film is provided, described heat conductive flame-retarding trade mark film comprises flame-retardant layer 1, heat-conducting layer 2, release layer 3, described flame-retardant layer 1 comprises flame-retarded resin rete 11, described heat-conducting layer 2 comprises heat conducting coating 21 and heat conductive flame-retarding glue-line 22, the method for making of described heat conductive flame-retarding trade mark film comprises the steps: described heat conducting coating 21 is coated on the one side of described flame-retardant layer 1, with the one side of described heat conductive flame-retarding glue-line 22 transfer coated at described release layer 3, and be compounded on the described heat conducting coating 21.
As shown in Figure 1, specific implementation process of the present invention is: a kind of heat conductive flame-retarding trade mark film production method is provided, comprise flame-retardant layer 1, heat-conducting layer 2, release layer 3 successively, described flame-retardant layer 1 comprises flame-retarded resin rete 11, the thickness of described flame-retarded resin rete 11 is that 5um to 50um(um is long measure, read micron, 1um is the per mille millimeter).Described heat-conducting layer 2 comprises heat conducting coating 21 and heat conductive flame-retarding glue-line 22.Described heat conducting coating 21 is any one formation in conductive graphite or high heat-conducting copper silver slurry or conductive graphite and the silver-colored potpourri of starching of heat conduction copper.Described heat conductive flame-retarding glue-line 22 is arranged between described heat conducting coating 21 and the described release layer 3.Described heat conductive flame-retarding glue-line 22 be fire retardant with pressure-sensitive glue and conductive graphite or high heat-conducting copper silver slurry or conductive graphite and potpourri that heat conduction copper silver is starched in any one mixes formation, described pressure-sensitive glue be in acrylic compounds glue, silicone based glue, the rubber-like glue any one or multiple.During making, earlier with described heat conducting coating 2 directly to be coated with the one side that mode is coated on described flame-retardant layer 1, coating thickness is 10um to 100um, with the one side of described heat conductive flame-retarding glue-line 22 transfer coated at described release layer 3, then described heat conductive flame-retarding glue-line 22 is compounded on the described heat conducting coating 21.
As shown in Figure 2, preferred implementation of the present invention is: described flame-retardant layer 1 also comprises the fire-retardant rete 12 that is arranged on described flame-retarded resin rete 11 one sides, described fire-retardant rete 12 forms for adding fire retardant in the flame-retarded resin, and described heat conducting coating 21 is directly to be coated with the one side that mode is coated on described fire-retardant rete 12.
Further technical scheme of the present invention is: described flame-retardant layer 1 also comprises the fire-retardant rete 12 that is arranged on described flame-retarded resin rete 11 one sides, described fire-retardant rete 12 forms for adding fire retardant in the flame-retarded resin, and described flame-retardant layer 1 is followed successively by described flame-retarded resin rete 11 and described fire-retardant rete 12 from outside to inside.
Technique effect of the present invention is: make up a kind of heat conductive flame-retarding trade mark film and method for making, described heat conductive flame-retarding trade mark film comprises flame-retardant layer 1, heat-conducting layer 2, release layer 3, described flame-retardant layer 1 comprises flame-retarded resin rete 11, described heat-conducting layer 2 comprises heat conducting coating 21 and heat conductive flame-retarding glue-line 22, the method for making of described heat conductive flame-retarding trade mark film comprises the steps: described heat conducting coating 21 is coated on the one side of described flame-retardant layer 1, with the one side of described heat conductive flame-retarding glue-line 22 transfer coated at described release layer 3, and be compounded on the described heat conducting coating 21.A kind of heat conductive flame-retarding trade mark film of the present invention and method for making as not only heat conduction but also fire-retardant trade mark class material, solve the electronic product heat generating components for the double requirements of fire-retardant heat radiation, promote the security performance of electronic product.
Above content be in conjunction with concrete preferred implementation to further describing that the present invention does, can not assert that concrete enforcement of the present invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.
Claims (10)
1. heat conductive flame-retarding trade mark film, it is characterized in that, comprise flame-retardant layer, heat-conducting layer, release layer, described flame-retardant layer comprises the flame-retarded resin rete, described heat-conducting layer comprises heat conducting coating and heat conductive flame-retarding glue-line, described heat conducting coating is coated on the one side of described flame-retardant layer, and described heat conductive flame-retarding glue-line is arranged between described heat conducting coating and the described release layer.
2. according to the described heat conductive flame-retarding trade mark of claim 1 film, it is characterized in that described flame-retardant layer also comprises the fire-retardant rete that is arranged on the described flame-retarded resin rete one side, described fire-retardant rete is to add fire retardant in the flame-retarded resin to form.
3. according to the described heat conductive flame-retarding trade mark of claim 2 film, it is characterized in that described heat conducting coating is coated on the one side of described fire-retardant rete.
4. according to the described heat conductive flame-retarding trade mark of claim 1 film, it is characterized in that described heat conducting coating is any one formation in conductive graphite or high heat-conducting copper silver slurry or conductive graphite and the silver-colored potpourri of starching of heat conduction copper.
5. according to the described heat conductive flame-retarding trade mark of claim 1 film, it is characterized in that, described heat conductive flame-retarding glue-line be fire retardant with pressure-sensitive glue and conductive graphite or high heat-conducting copper silver slurry or conductive graphite and potpourri that heat conduction copper silver is starched in any one mixes formation.
6. according to the described heat conductive flame-retarding trade mark of claim 1 film, it is characterized in that, described pressure-sensitive glue be in acrylic compounds glue, silicone based glue, the rubber-like glue any one or multiple.
7. the method for making of a heat conductive flame-retarding trade mark film, described heat conductive flame-retarding trade mark film comprises flame-retardant layer, heat-conducting layer, release layer, described flame-retardant layer comprises the flame-retarded resin rete, described heat-conducting layer comprises heat conducting coating and heat conductive flame-retarding glue-line, and the method for making of described heat conductive flame-retarding trade mark film comprises the steps:
Described heat conducting coating is coated on the one side of described flame-retardant layer, with the one side of described heat conductive flame-retarding glue-line transfer coated at described release layer, and is compounded on the described heat conducting coating.
8. according to the method for making of the described heat conductive flame-retarding trade mark of claim 7 film, it is characterized in that, described flame-retardant layer also comprises the fire-retardant rete that is arranged on the described flame-retarded resin rete one side, described fire-retardant rete is to add fire retardant in the flame-retarded resin to form, and described heat conducting coating is coated on the one side of described fire-retardant rete.
9. according to the method for making of the described heat conductive flame-retarding trade mark of claim 7 film, it is characterized in that, described flame-retardant layer also comprises the fire-retardant rete that is arranged on the described flame-retarded resin rete one side, described fire-retardant rete is to add fire retardant in the flame-retarded resin to form, and described flame-retardant layer is followed successively by described flame-retarded resin rete and described fire-retardant rete from outside to inside.
10. according to the method for making of the described heat conductive flame-retarding trade mark of claim 7 film, it is characterized in that described heat conducting coating is directly to be coated with the one side that mode is coated on described flame-retardant layer.
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CN2013101217872A CN103236221A (en) | 2013-04-10 | 2013-04-10 | Heat conduction inflaming retarding trademark membrane and manufacturing method thereof |
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CN2013101217872A CN103236221A (en) | 2013-04-10 | 2013-04-10 | Heat conduction inflaming retarding trademark membrane and manufacturing method thereof |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109355030A (en) * | 2018-11-06 | 2019-02-19 | 苏州环明电子科技有限公司 | Flexible heat-insulated laminated film and its preparation process |
CN110834457A (en) * | 2019-10-15 | 2020-02-25 | 深圳昌茂粘胶新材料有限公司 | Wrapping film material for power battery and preparation method thereof |
CN113372840A (en) * | 2021-06-02 | 2021-09-10 | 深圳昌茂粘胶新材料有限公司 | Flame-retardant synthetic film with excellent thermal conductivity and preparation method thereof |
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CN102888786A (en) * | 2011-07-21 | 2013-01-23 | 朱向忠 | Heat transfer printing solvent-proof label paper and processing method thereof |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113372840A (en) * | 2021-06-02 | 2021-09-10 | 深圳昌茂粘胶新材料有限公司 | Flame-retardant synthetic film with excellent thermal conductivity and preparation method thereof |
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Application publication date: 20130807 |